Laboratory Diagnosis
Acid-fast staining methods, with or without stool concentration, are most frequently used in clinical laboratories. Immunofluorescence microscopy has the greatest sensitivity and specificity, followed closely by enzyme immunoassays (EIA). Molecular methods (e.g., polymerase chain reaction [PCR)]) are increasingly used in reference diagnostic laboratories, since they can identify Cryptosporidium at the species level.
Specimen processing
Stool specimens may be preserved in 10% buffered formalin (see “Laboratory Safety”), or suspended in a storage medium composed of aqueous potassium dichromate (2.5% w/v, final concentration). Formalin-based fixatives are not recommended if molecular testing will be performed*. Because the number of oocysts can vary, even in liquid stools samples, multiple stool specimens should be tested before reporting a negative diagnostic interpretation. To maximize recovery of oocysts, stool specimens should be concentrated prior to microscopic examination. Formalin-ethyl acetate sedimentation is the recommended stool concentration method. Given their small size and mass, cryptosporidial oocysts can become trapped in the ether or ethyl acetate plug and fail to sediment properly . Increased centrifugation speed or time (500 x g, 10 minutes) might be warranted when attempting to recover cryptosporidial oocysts. Resolution of cryptosporidial infections is accompanied by increasing numbers of non-acid-fast, oocyst “ghosts.” Such oocysts might not float or sediment as expected, leading to false-negative results.
* Formalin is routinely used in clinical settings as a fixative of various specimen types. However, because of formalin’s unfavorable effects on nucleic acids, certain fixatives/preservatives are not recommended for molecular detection, including formalin, sodium acetate-acetic acid-formalin (SAF), and low-viscosity polyvinyl alcohol (LV-PVA).
Immunoassays
Direct fluorescent antibody [DFA], EIA, and rapid immunochromatographic assays are commercially available in the U.S. for the diagnosis of cryptosporidiosis. Several kits are combined tests for Cryptosporidium, Giardia, and Entamoeba histolytica. Immunodetection of antigens on the surface of organisms in stool specimens using DFA is highly sensitive and specific.
Commercial EIA tests for the detection of Cryptosporidium antigens in fresh or frozen stool specimens and also in stool specimens preserved in formalin or fixed in sodium acetate-acetic acid-formalin (SAF) are available in the microplate format. Concentrated or polyvinyl alcohol-treated (PVA) specimens are unsuitable for testing with available antigen detection EIA kits.
Laboratories that use EIA kits and rapid format assays need to be aware of potential problems with false positives and interpret results with caution.
Molecular Methods
Multipathogen Molecular Panels
Several commercial multipathogen gastrointestinal illness panels are available that include Cryptosporidium.. The advantage of these technologies is they deliver the often high sensitivity and specificity of molecular assays (e.g. PCR), without the need for highly trained molecular biologists. Also, infections can be detected even in the absence of clinical suspicion.
Molecular Typing
Molecular methods, such as those developed and used by CryptoNet, are the only methods able to differentiate Cryptosporidium species and genotypes. These are used in epidemiological investigations and genetic typing and not for clinical diagnosis. Multiple individual protocols comprise the standardized method forCryptosporidium genotyping and subtyping .
Laboratory Safety
Standard precautions for the processing of stool specimens apply.
Cryptosporidium spp. oocysts are hardy and immediately infectious, so they present an infection risk for laboratory workers via accidental ingestion (or possibly aerosolization); therefore extra precautions must be taken. Primary containment (e.g., biosafety cabinet) and/or personal protective equipment (PPE; e.g., face shield) should be used when working with specimens that might contain viable Cryptosporidium spp. All paper towel litter and other disposable materials should be autoclaved or similarly disinfected before disposal. Reusable laboratory items can be washed and disinfected in a laboratory dishwasher by using a detergent containing chlorine and the “sanitize” cycle. Alternatively, contaminated items may be immersed for approximately one hour in a water bath preheated to 50°C and washed thereafter in a detergent/disinfectant solution.
All spills and potential surface contamination with oocysts should be disinfected using the following protocol: After removing organic material from the contaminated surface (e.g., by using a conventional laboratory detergent/cleaner) and absorbing the bulk of the spill with disposable paper towels, flood and completely cover the surface with undiluted 3% hydrogen peroxide. Dispense hydrogen peroxide repeatedly, as needed, to keep affected surfaces covered and wet/moist for approximately 30 minutes. Absorb residual hydrogen peroxide with disposable paper towels, and allow surfaces to dry thoroughly (10–30 minutes) before use.
Suggested Reading
Checkley, W., White, A.C., Jaganath, D., Arrowood, M.J., Chalmers, R.M., Chen, X.M., Fayer, R., Griffiths, J.K., Guerrant, R.L., Hedstrom, L. and Huston, C.D., 2015. A review of the global burden, novel diagnostics, therapeutics, and vaccine targets for Cryptosporidium. The Lancet Infectious Diseases, 15 (1), pp.85-94.
Ryan, U., Fayer, R. and Xiao, L., 2014. Cryptosporidium species in humans and animals: current understanding and research needs. Parasitology, 141 (13), pp.1667-1685.